7: Antihypertensive (Angina, Arrhythmias, CHF)

Question 1

equation for blood pressure

Answer 1

BP = CO x TPR

Question 2

what is the function of the baroreceptor reflex?

Answer 2

to monitor and correct changes in BP within seconds by altering cardiac output and peripheral vascular resistance

Question 3

how do kidneys help with long term management of BP?

Answer 3

they control fluid balance

Question 4

which type of hypertension is less common?

Answer 4

secondary hypertension (<10%)

Question 5

which type of hypertension means there is no clear cause of the elevated BP?

Answer 5

primary hypertension

Question 6

what are some causes of secondary hypertension?

Answer 6

chronic kidney disease, renal artery stenosis, endocrine disorders

Question 7

how is secondary hypertension treated?

Answer 7

treatment focuses on correcting the abnormality –find the cause and address it specifically

Question 8

what are possible causes of primary hypertension?

Answer 8

diet, stress, genetics, cigarette smoking, alcohol abuse, obesity

Question 9

how are peripheral vessels impacted by consistently high BP?

Answer 9

vessels become less compliant and resistance increases

Question 10

what are metabolic abnormalities associated with hypertension?

Answer 10

insulin resistance (impaired glucose metabolism), hyperinsulinemia, dyslipidemia, abdominal obesity (these characteristics all together are known as metabolic syndrome)

Question 11

what classes of drugs are used to treat HTN?

Answer 11

diuretics
sympatholytics
vasodilators
renin-angiotensin inhibitors
calcium-channel blockers

Question 12

what is the mechanism of diuretics?

Answer 12

they increase renal excretion of water and sodium, which decreases fluid volume in the vascular system

Question 13

why do pts need a potassium supplements when taking diuretics?

Answer 13

potassium is also decreased with diuretics, which can lead to arrhythmias, decreased energy, and inability to tolerate PT

Question 14

what are three types of diuretics?

Answer 14

thiazide, loop, and potassium-sparing

Question 15

what is required for using thiazide diuretics?

Answer 15

good kidney function (often not a good choice for geriatrics)

Question 16

are loop diuretics more or less potent than thiazides?

Answer 16

more potent

Question 17

what are adverse effects of diuretics?

Answer 17

fluid depletion, electrolyte imbalance, low sodium, low potassium, orthostatic hypotension, impaired glucose or lipid metabolism, tired, up all night peeing

Question 18

what are problems caused by fluid depletion (with use of diuretics)?

Answer 18

decrease in blood volume, increase in CO and peripheral resistance due to activation of the baroreceptor reflex

Question 19

What are examples of sympatholytics?

Answer 19

beta blockers
alpha blockers
presynaptic adrenergic inhibitors
centrally acting agonists

Question 20

What are sympatholytics?

Answer 20

drugs that block or interfere with sympathetic discharge

Question 21

how do beta adrenergic blockers address HTN?

Answer 21

decrease CO and myocardial force, which slow down HR

Question 22

suffix of sympatholytic beta blockers

Answer 22

(-lol)

Question 23

side effects of beta blockers

Answer 23

excessive HR depression, orthostatic hypotension, impaired glucose and lipid metabolism, depression, fatigue, GI disturbances, allergic reactions, blunted HR response with exercise

Question 24

what is the mechanism of alpha blockers?

Answer 24

they block alpha-1 adrenergic receptors on vascular smooth muscle, which decreases vascular resistance

Question 25

adverse effects of alpha blockers

Answer 25

reflex tachycardia, orthostatic hypotension, increase in cardiac disease and CHF

Question 26

what is reflex tachycardia?

Answer 26

when peripheral vascular resistance fails, the baroreceptor reflex may kick in and cause a compensatory increase in HR

Question 27

why do alpha blockers increase risk of cardiac disease and CHF?

Answer 27

they allow vasodilation, which increases plasma volume and increases the workload of the heart (if they have a known risk of any cardiac disease, they should avoid alpha blockers)

Question 28

what is the mechanism of presynaptic adrenergic inhibitors?

Answer 28

they inhibit the release of norepinephrine from the presynaptic terminals, which decreases sympathy excitation of the heart and vasculature, resulting in decreased BP

Question 29

what is the mechanism of presynaptic adrenergic inhibitors?

Answer 29

they inhibit the release of norepinephrine from the presynaptic terminals, which decreases sympathy excitation of the heart and vasculature, resulting in decreased BP

Question 30

what are adverse effects of alpha blockers?

Answer 30

bradycardia, arrhythmias, drowsiness, GI disturbances (nausea, vomiting, diarrhea)

Question 31

what is the mechanism of centrally acting agents?

Answer 31

they inhibit sympathetic discharge from the brainstem by acting on central receptors, which causes a decrease in cardiovascular stimulation and BP

Question 32

what are adverse effects of centrally acting agents?

Answer 32

dry mouth, dizziness, sedation

Question 33

how do vasodilators decrease BP?

Answer 33

they dilate the peripheral vasculature, which decreases peripheral resistance, therefore decreasing BP

Question 34

what are side effects of vasodilators?

Answer 34

reflex tachycardia, dizziness, orthostatic hypotension, weakness, nausea, fluid retention, headache

Question 35

what is the mechanism of renin-angiotensin system inhibitors (in general)?

Answer 35

prevents renin’s ability to convert angiotensinogen to angiotensin II, which is a vasoconstrictor, in order to keep vasculature dilated and decrease BP

Question 36

What are three types of renin-angiotensin system inhibitors?

Answer 36

ACE inhibitors, ARBs (angiotensin II receptor blockers), and renin inhibitors

Question 37

what are adverse effects of ACE inhibitors?

Answer 37

allergic reaction (skin rash), persistent, dry cough, angioedema (rashes, welts, burning, swelling, difficulty breathing), hyperkalemia (can lead to irregular HR)

Question 38

what are adverse effects of ARBs?

Answer 38

no benefit over ACE inhibitors except that they don’t cause the dry cough

Question 39

what are adverse effects of direct-acting renin inhibitors?

Answer 39

dry cough, GI problems (diarrhea, upset stomach, abdominal pain)

Question 40

what is the mechanism of calcium channel blockers?

Answer 40

they block calcium entry in the vascular smooth muscle cells which blocks the contractile process, leading to vasodilation and decreased vascular resistance

Question 41

what are adverse effects of calcium channel blockers?

Answer 41

excessive vasodilation (swelling in feet and ankles), orthostatic hypotension, abnormalities in HR (too fast or slow)

Question 42

What are the systolic and diastolic values for each stage of hypertension?

Answer 42

normal: <120/<80
pre-HTN: 120-139 / 80-89
stage 1 HTN: 140-159 / 90-99
stage 2 HTN: >159 / >99

Question 43

what are the initial drug choices for stage 1 HTN?

Answer 43

thiazide diuretic, calcium channel blocker, ACE inhibitor or ARB

Question 44

what is the drug choice for stage 2 HTN?

Answer 44

use two of those “first line of defense” drugs in combination

Question 45

what are PT implications for HTN?

Answer 45

• orthostatic hypotension is common
• avoid activity that causes widespread dilation (whirlpool)
• use RPE scales with beta blockers
• exercise causes vasodilation

Question 46

why does angina occur?

Answer 46

imbalance between myocardial oxygen supply and demand leads to ischemia, which causes metabolic, electrophysiological, and contractile changes in the heart
lactic acide accumulaties and painful symptoms occur

Question 47

which drugs are used to treat angina pectoris?

Answer 47

organic nitrates, beta blockers, and calcium channel blockers

Question 48

what is the mechanism of organic nitrates?

Answer 48

they convert nitric oxide within the vascular smooth muscle, which causes vasodilation of the smooth muscle (in the periphery as well as the coronary arteries, which decreases both cardiac preload and after load)

Question 49

what is the best and most common route for nitroglycerin?

Answer 49

sublingual

Question 50

what are adverse effects of nitroglycerin and other organic nitrates?

Answer 50

headache, dizziness, orthostatic hypotension

Question 51

why are patients with angina prescribed an anticoagulant?

Answer 51

to prevent coronary arteries from becoming completely blocked and causing an MI

Question 52

what is stable angina?

Answer 52

myocardial oxygen demand greatly exceeds oxygen supply, typically occurs with a certain level of exertional activity

Question 53

what is the typical drug for treating acute episodes of stable angina?

Answer 53

nitroglycerin

Question 54

what drugs are usually the first drugs used in long term management of stable angina?

Answer 54

beta blockers

Question 55

when are calcium channel blockers used in the treatment of stable angina?

Answer 55

when beta blockers aren’t tolerated

Question 56

what causes variant angina?

Answer 56

vasospasms that cause oxygen supply to decrease even though the oxygen demand has not changed (can occur even at rest; potential for environmental and emotional stimuli)

Question 57

what drug is most effective for variant angina?

Answer 57

calcium channel blockers

Question 58

what is the most severe form of angina?

Answer 58

unstable angina

Question 59

what is essential to prevent unstable angina from progressing to MI?

Answer 59

anticoagulant and antiplatelet therapy

Question 60

PT implications for angina pectoris?

Answer 60

• be aware of what medications they take
• exercise will increase demand of myocardial oxygen
• be aware of cardiac limitations, keep nitroglycerin tablets with them for acute attacks
• orthostatic hypotension

Question 61

three basic abnormalities that cause an arrhythmia:

Answer 61

1. abnormal impulse generation
2. abnormal impulse conduction
3. simultaneous abnormalities

Question 62

what are the four categories of drugs that treat arrhythmias?

Answer 62

class 1: sodium channel blockers
class 2: beta blockers
class 3: drugs that prolong repolarization
class 4: calcium channel blockers

Question 63

what are general side effects of antiarrhythmic drugs?

Answer 63

pro-arrhythmic effect (increased rhythm disturbances, potential for another arrhythmia)
dizziness, visual disturbances, GI problems

Question 64

what arrhythmias are treated by drugs that prolong repolarization?

Answer 64

VTach, VFib, supraventricular arrhythmias

Question 65

what is the most widely used anti arrhythmic drug?

Answer 65

amiodarone

Question 66

what are non pharmacological treatment options for arrhythmias?

Answer 66

pacemakers, cardioverter defibrillators, surgical electrode catheter ablation

Question 67

PT implications for arrhythmia drugs:

Answer 67

• risk of increased/new arrhythmias
• faintness and dizziness = signs of cardiotoxicity
• hypotension → monitor vitals

Question 68

two goals of CHF drugs:

Answer 68

1. improve myocardial contraction force
2. decrease cardiac workload (by affecting vasculature or controlling fluid volume)

Question 69

what drugs increase myocardial contraction force?

Answer 69

cardiac glycosides (digoxin and digitoxin)

Question 70

what types of drugs decreased cardiac workload?

Answer 70

ACE inhibitors, ARBs, beta blockers, diuretics, vasodilators

Question 71

What is the function of digitalis?

Answer 71

to improve pumping action of the heart, by increasing CO at rest and within exercise, which would lead to increased exercise tolerance

Question 72

what is the mechanism of digitalis?

Answer 72

it increases intracellular calcium concentration which facilitates interaction between actin and myosin filaments in the myocardial cell

Question 73

how does digitalis affect the sympathetic nervous system?

Answer 73

inhibits the sympathetic nervous system, which decreases the stress on the heart, which slows the HR as well as impulse conduction through the heart

Question 74

what are signs of digitalis toxicity?

Answer 74

GI distress (N&V, diarrhea)
CNS disturbances (fatigue, drowsiness, confusion, visual disturbances)
Abnormalities in cardiac function (arrhythmias, premature ventricular contractions, V-Tach, heart blocks)
V-fib and death

Question 75

what is the mechanism of ARBs?

Answer 75

they prevent angiotensin II from binding to the receptors on vascular tissues, which limits vasoconstriction (and causes vasodilation)

Question 76

are beta blockers good for treating CHF?

Answer 76

yes, although they used to be considered detrimental. now they are known to lessen the increase of sympathetic activity seen with CHF.

Question 77

what is the mechanism of diuretics?